Covalent Bonding (Oxford AQA IGCSE Chemistry)

Revision Note

What is Covalent Bonding?

  • Non-metal atoms can share electrons with other non-metal atoms to obtain a full outer shell of electrons

  • When two atoms share pairs of electrons, they form covalent bonds

  • Covalent bonds between atoms are very strong

  • When two or more atoms are covalently bonded together, they form ‘molecules’

  • Covalently bonded substances may consist of simple molecules or giant molecules (also known as macromolecules)

  • Weak intermolecular forces exist between individual molecules

    • For example, in methane, each molecule consists of four hydrogen atoms covalently bonded to a carbon atom, and in between individual methane molecules there are weak intermolecular forces

  • Shared electrons are called bonding electrons and occur in pairs

  • Electrons on the outer shell which are not involved in the covalent bond(s) are called non-bonding electrons

Covalent Bonding Diagram

Diagram showing covalent bonding in a molecule of chlorine
Two chlorine atoms share one electron each to form a covalent bond with a shared pair of electrons

Examiner Tips and Tricks

A key difference between covalent bonds and ionic bonds is that in covalent bonds the electrons are shared between the atoms, they are not transferred (donated or gained) and no ions are formed.

Simple Covalent Molecules

  • Covalent substances tend to have simple molecular structures 

  • These small molecules are known as simple molecules

  • Small covalent molecules can be represented by dot and cross diagrams

  • You need to be able to describe and draw the correct dot-and-cross diagrams, as shown, for the following molecules:

    • Hydrogen (H2)

      Dot-and-cross representation of a molecule of hydrogen
      Dot-and-cross representation of a molecule of hydrogen
    • Chlorine (Cl2)

      Dot-and-cross representation of a molecule of chlorine
      Dot-and-cross representation of a molecule of chlorine
    • Oxygen (O2)

      Dot-and-cross representation of a molecule of oxygen
      Dot-and-cross representation of a molecule of oxygen
    • Nitrogen (N2)

      Dot-and-cross representation of a molecule of nitrogen
      Dot-and-cross representation of a molecule of nitrogen
    • Hydrogen chloride (HCl)

      Dot-and-cross representation of a molecule of hydrogen chloride
      Dot-and-cross representation of a molecule of hydrogen chloride
    • Water (H2O)

      Dot-and-cross representation of a molecule of water
      Dot-and-cross representation of a molecule of water
    • Ammonia (NH3)

      Dot-and-cross representation of a molecule of ammonia
      Dot-and-cross representation of a molecule of ammonia
    • Methane (CH4)

      Dot-and-cross representation of a molecule of methane
      Dot-and-cross representation of a molecule of methane

Examiner Tips and Tricks

Each covalent bond represents one shared pair of electrons. 

For example, there are two covalent bonds between the two oxygen atoms in O2 so four electrons are shared. 

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